Development and Field Test of Non-Lining Inflatable Packers
-
摘要: 为解决常规钢丝帘线或重叠钢片式扩张封隔器胀封承压后残余变形大、易卡管柱的问题,通过设计无骨架内衬扩张式胶筒,研制了无骨架内衬扩张式封隔器。该封隔器采用两端嵌套弹簧的方式来提高胶筒多次坐封的可靠性,在工作压差2.5~5.0 MPa下,胶筒可以充分胀封并可靠密封。室内试验表明,无骨架内衬扩张式封隔器在150℃下可以反复坐封/解封50次,双向承压85 MPa,解封后胶筒残余变形率小于1.5%。该封隔器在延长油田2口老井重复复压裂施工中进行了试验,其坐封显示明显,且在井内工作50 h多后,顺利解封,封隔器胶筒完好,外径仅由108 mm扩大至109 mm。研究结果表明,无骨架内衬扩张式封隔器封隔能力强,能重复坐封、解封,比常规扩张封隔器胶筒残余变形小,更易于解封起出管柱。Abstract: In order to solve the problem of residual deformation and potential pipe sticking created by steel wire screen or steel skeleton packer after its setting with pressure-bearing,an non-lining inflatable packer was developed with springs embedded in both ends to support the rubber by designing the non-lining inflatable packer rubber to improve the re-setting reliability.The packer rubber can be fully expanded and sealed under differential pressure difference of 2.5-5.0 MPa.Indoor tests showed that the newly developed packer could be set and reset for 50 times with bi-directional pressure-bearing capacity of 85 MPa at working temperature of 150℃,and the packer rubber has residual deformation less than 1.5% after releasing.Field tests have been conducted in refracturing of old wells in the Yanchang Oilfield.The packer is very easy to set,and smoothly releases after setting in the well more than 50 hours,with OD expanded from 108 mm to 109 mm only.Research results showed that the innovative inflatable packers have outstanding sealing capacities and can be reset and released repeatedly,with less deformation of rubber than that of conventional packers,easily pulling the pipe string out of the hole.
-
Keywords:
- packer /
- packer rubber /
- fracturing /
- packer setting /
- Well Ding 48015-2
-
-
[1] 张春辉.连续油管结合双封单卡压裂技术应用[J].石油矿场机械,2014,43(5):60-62. ZHANG Chunhui.Application of coiled tubing frac technique using double-sealing and single-stick[J].Oil Field Equipment,2014,43(5):60-62. [2] 杨晓龙,刘丽娟,张承武.钢带封隔器胶筒护箍喇叭口优化设计[J].机械设计与研究,2015,31(3):161-163. YANG Xiaolong,LIU Lijuan,ZHANG Chengwu.Optimization design protector bell of steel packer rubber[J].Machine Design and Research,2015,31(3):161-163. [3] 杨康敏,胡英才,李家明,等.易起式高压多层压裂管柱的研究与应用[J].石油机械,2012,40(8):113-115. YANG Kangmin,HU Yingcai,LI Jiaming,et al.Research and application of the easy-to-trip high pressure multi-layer fracture string[J].China Petroleum Machinery,2012,40(8):113-115. [4] 柴国兴,姜国良,牛骏,等.K341型裸眼水平井压裂封隔器研制[J].石油矿场机械,2013,42(6):70-72. CHAI Guoxing,JIANG Guoliang,NIU Jun,et al.Design and test of K341 packer for openhole horizontal well fracturing[J].Oil Field Equipment,2013,42(6):70-72. [5] 冯燕,伍开松.分级解封长胶筒封隔器的结构及性能分析[J].石油矿场机械,2015,44(5):79-82. FENG Yan,WU Kaisong.Structure and performance analysis of gradual releasing long tubing packer[J].Oil Field Equipment,2015,44(5):79-82. [6] 张承武,王兴建,陈建刚.分段压裂封隔器叠层钢片膨胀筒的密封机理[J].石油机械,2007,35(3):5-7. ZHANG Chengwu,WANG Xingjian,CHEN Jiangang.Seal mechanism of the overlapped steel strip inflatable tube of stepwise fracturing packer[J].China Petroleum Machinery,2007,35(3):5-7. [7] 程心平.扩张式封隔器胶筒力学性能分析[J].石油机械,2014,42(6):72-76. CHENG Xinping.Mechanical properties analysis of expandable packer rubber[J].China Petroleum Machinery,2014,42(6):72-76. [8] 江汉石油管理局采油工艺研究所.封隔器理论基础与应用[M].北京:石油工业出版社,1982:37-40,59-60,77-78. Oil Production Technology Research Institute of Jianghan Petroleum Administration Bureau.Theory foundation and application of packer[M].Beijing:Petroleum Industry Press,1982:37-40,59-60,77-78. [9] 马金良,潘娟芳,王林,等.自封压缩式封隔器的研制与应用[J].石油钻探技术,2015,43(6):120-124. MA Jinliang,PAN Juanfang,WANG Lin,et al.Development and application of self-sealing compression packer[J].Petroleum Drilling Techniques,2015,43(6):120-124. -
期刊类型引用(10)
1. 周涛,侯红意,陶亮,艾超. 渤海油田注水井环空保护封隔器的研制与应用. 工程机械. 2022(03): 96-104+13 . 
百度学术
2. 杜福云,刘国振,郭雯霖,张立波,郑金中,陈磊,李英松. 高性能注水井生产封隔器研制与试验. 机械工程师. 2021(05): 142-144 . 百度学术
3. 李顺,贺启强,周大志,寸锡宏,任兆林,刘艳霞. 注水井环空带压统计分析及治理改进方向. 当代石油石化. 2021(05): 26-28 . 百度学术
4. 韩祥海,平恩顺,安小萍,王林,贺燕飞,王志民,黄峰. 带压投送井口保护装置的研制及应用. 钻采工艺. 2021(04): 86-89 . 百度学术
5. 宋辉辉,任从坤,任兆林,张福涛,田俊,刘艳霞. 海上油田分层防砂分层注水高效集成技术. 石油钻采工艺. 2021(03): 384-388 . 百度学术
6. 刘红兰. 胜利海上油田安全可控长效分层注水技术. 石油钻探技术. 2019(01): 83-89 . 本站查看
7. 张技. 油田安全环保隐患成因分析及治理技术探析. 石化技术. 2019(05): 235+237 . 百度学术
8. 李勇. 埕岛油田长效细分注水关键技术及应用. 石油机械. 2019(10): 94-100 . 百度学术
9. 杨建政. 适合海上低渗气田水平井固井的柔性水泥浆体系研究. 化工管理. 2019(32): 224 . 百度学术
10. 刘红兰. 分层注水井测调一体化新技术. 石油钻探技术. 2018(01): 83-89 . 本站查看
其他类型引用(0)
计量
- 文章访问数: 7734
- HTML全文浏览量: 98
- PDF下载量: 8539
- 被引次数: 10
下载:
